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{"title":"Reaction Bonded Silicon Carbide RBSiC Rings with Max. Service Temp 1380\u2103,","imgUrl":"https:\/\/img.chinax.com\/nimg\/16\/26\/18db3d40624f1b07d004f7157c97-200x200-1\/reaction_bonded_silicon_carbide_rbsic_rings_with_max_service_temp_1380_e2_84_83_2c_flexural_strength_367mpa_2c_and_density_3_05.jpg","attrs":{"Brand Name":"KEGU","Place of Origin":"China","Payment Terms":"L\/C,D\/A,D\/P,T\/T,Western Union,MoneyGram","Supply Ability":"2,000 pcs\/month"}}
{"title":"2.8 Density 1600\u00b0C High Efficiency Silicon Carbide Heating Element with Reaction","imgUrl":"https:\/\/img.chinax.com\/nimg\/11\/24\/0d6940e7566b5f9a9acf41c254b0-200x200-1\/2_8_density_1600_c2_b0c_high_efficiency_silicon_carbide_heating_element_with_reaction_bonded_sic_rod.jpg","attrs":[]}
{"title":"High-Performance Silicon Carbide Furnace Components with Extreme Temperature","imgUrl":"https:\/\/img.chinax.com\/nimg\/e0\/86\/3a11c89269daa638dec6584460da-200x200-1\/high_performance_silicon_carbide_furnace_components_with_extreme_temperature_resistance_2c_superior_mechanical_strength_2c_and_exc.jpg","attrs":{"Brand Name":"KEGU","Place of Origin":"China","Payment Terms":"L\/C,D\/A,D\/P,T\/T,Western Union,MoneyGram","Supply Ability":"2,000 pcs\/month"}}
{"title":"High-Temperature Stable SiC Burner with Thermal Shock and Corrosion Resistance","imgUrl":"https:\/\/img.chinax.com\/nimg\/15\/ae\/2d3b6830d6f5a58fa6b8bc4d29d2-200x200-1\/high_temperature_stable_sic_burner_with_thermal_shock_and_corrosion_resistance_for_industrial_furnaces.jpg","attrs":{"Brand Name":"KEGU","Place of Origin":"China","Payment Terms":"L\/C,D\/A,D\/P,T\/T,Western Union,MoneyGram","Supply Ability":"2,000 pcs\/month"}}
{"title":"Reaction Bonded Silicon Carbide (RBSC\/SiSiC) with Superior Corrosion Resistance,","imgUrl":"https:\/\/img.chinax.com\/nimg\/0e\/2e\/dd5dc826852a7676c43416e8c6af-200x200-1\/reaction_bonded_silicon_carbide_28rbsc_2fsisic_29_with_superior_corrosion_resistance_2c_high_temperature_stability_2c_and_exceptio.jpg","attrs":{"Brand Name":"KEGU","Place of Origin":"China","Payment Terms":"L\/C,D\/A,D\/P,T\/T,Western Union,MoneyGram","Supply Ability":"2,000 pcs\/month"}}
{"title":"Reaction-bonded silicon carbide setter plate with 1380\u2103 max service temp, 250MPa","imgUrl":"https:\/\/img.chinax.com\/nimg\/95\/a8\/27b044a3a4b1ffb5e4360557fb25-200x200-1\/reaction_bonded_silicon_carbide_setter_plate_with_1380_e2_84_83_max_service_temp_2c_250mpa_flexural_strength_2c_and_e2_89_a53_0g_2.jpg","attrs":{"Brand Name":"KEGU","Model Number":"Customizable","Place of Origin":"China","Price":"200-500 yuan\/kg"}}
In the precision-driven environment of semiconductor fabrication, every component within the wafer handling chain must guarantee utmost reliability and dimensional integrity. Cantilever paddles, as the critical interface in automated loading systems, directly impact process yield, throughput, and scalability. Our Reaction-Bonded Silicon Carbide (RBSiC) Cantilever Paddles are engineered to deliver exceptional performance where it matters most—under high temperatures, repeated thermal cycles, and stringent cleanliness requirements.
Superior Stability through Advanced Material Engineering
Manufactured via the reaction-bonding process, our paddles achieve a unique combination of high purity, near-net-shape precision, and exceptional thermo-mechanical properties. This makes them the ideal choice for demanding applications in robotic wafer handling and transfer systems.
Key Performance Data
Property
Unit
Typical Value / Data
Long-term Service Temperature
°C
≤ 1380
Density
g/cm³
≥ 3.02
Apparent Porosity
%
≤ 0.1
Flexural Strength
MPa
250 (20°C); 281 (1200°C)
Elastic Modulus
GPa
332 (20°C); 300 (1200°C)
Thermal Conductivity (1200 °C)
W/m*K
45
Coefficient of Thermal Expansion
K⁻¹ * 10⁻⁶
4.5
Mohs Hardness
-
9
Acid & Alkali Resistance
-
Excellent
Core Advantages Enabled by RBSiC
Unmatched Dimensional Stability at High Temperature: The reaction-bonded structure ensures minimal deformation and zero creep under sustained thermal load, critical for maintaining precise wafer positioning in furnace processes.
High Load-Bearing Capacity & Stiffness: Excellent flexural strength and modulus support high wafer loads reliably, enabling stable handling in batch processing environments.
Optimized for Robotic Automation: Designed for seamless integration into automated load ports, transfer robots, and handling systems, ensuring smooth, repeatable, and particle-minimized operation.
Superior Thermal Expansion Match: The tailored Coefficient of Thermal Expansion (CTE) closely matches that of silicon wafers and quartz furnace tubes, reducing thermal stress and misalignment risks in processes such as LPCVD, diffusion, and annealing.
Transforming Process Scalability & Operational Efficiency
Integrating our RBSiC cantilever paddles enables tangible advances in both process capability and fab economics:
Enable Larger Wafer Processing in Existing Tools: Exceptional cross-sectional stability allows existing furnace tubes to be reliably retrofitted for processing larger wafer diameters, extending the lifecycle of capital equipment.
Reduce Particle Contamination: High density and smooth surface finish minimize particle generation and adhesion, directly improving yield in cleanroom-critical applications.
Extend Maintenance & Cleaning Cycles: Outstanding resistance to thermal fatigue, oxidation, and chemical exposure significantly prolongs service intervals, reducing downtime and consumable costs.
Ensure Process Uniformity: Consistent performance across thermal cycles ensures repeatable wafer placement and heating profiles, supporting uniform film deposition and process control.
Technical Excellence Rooted in Material Properties
The reaction-bonded silicon carbide structure provides an optimal balance of properties essential for wafer handling:
High mechanical strength and fracture toughness
Excellent thermal conductivity with low thermal expansion
Inertness to most process gases and plasma environments
Long-term stability in oxidizing and reducing atmospheres up to 1380°C
Ideal for Retrofit & Next-Generation System Design
Whether upgrading existing wafer handling systems for advanced nodes or designing next-generation semiconductor manufacturing equipment, our RBSiC cantilever paddles offer a proven, reliable solution for enhanced precision, scalability, and cost-effectiveness.
Ready to Engineer Precision into Your Wafer Handling Process?
Contact our technical team to discuss your application specifications, request design files, or explore custom-engineered paddle solutions tailored to your toolset and process requirements.
